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3 years ago

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When 2.50 g of a certain hydrocarbon was completely combusted in a "bomb (constant-volume) calorimeter" with a heat capacity (ex

cluding water) of 350 J/°C and which contained 2.00 liters of water (density = 1.00 g/mL and specific heat capacity = 4.184 J/°C•g), the resulting temperature change was measured to be 5.52°C. Calculate the thermal energy (in kJ) released per gram of hydrocarbon combusted. (1) 48.1 kJ/g (2) 0.773 kJ/g (3) 19.2 kJ/g (4) 18.5 kJ/g (5) 46.2 kJ/g

1 answer:

erastovalidia [21]3 years ago

3 0

Answer:

The thermal energy released per gram is 19.2 kJ/g.

(3) is correct option.

Explanation:

Given that,

Weight of hydrocarbon = 2.50 g

Heat capacity $c = 350 J/^{\circ}C$

We need to calculate the thermal energy released

Using formula of thermal energy

Heat released =heat absorb by calorimeter+heat absorb by water

$Q=c\Delta T+mc\Delta T$

Put the value into the formula

$Q=350\times5.52+2000\times4.184\times5.52$

$Q=48123.36\ J$

Now, The thermal energy released per gram

$Q'=\dfrac{Q}{m}$

Put the value into the formula

$Q'=\dfrac{48123.36}{2.50}$

$Q'=19.2\ kJ/g$

Hence, The thermal energy released per gram is 19.2 kJ/g.

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